1) ceramic insert
陶瓷刀片
1.
Cutting tests of rough-milling the engine casing with ceramic inserts are carried out, the cutting performance of ceramic inserts to machine nickel-base high temperature alloys is studied, the cutting parameters and the programmed tool-path are optimized, and the chip form in high-speed and dry cutting is analyzed.
采用陶瓷刀片进行了发动机中介机匣的粗铣切削试验,研究了陶瓷刀片加工镍基高温合金的切削性能,优化了切削参数和走刀路线,分析了高速干式加工的切屑形态,指出应用陶瓷刀具加工镍基高温合金是提高效率、降低成本的有效途径。
2.
A design scheme of the CNC belt grinder based on the turning milling center is presented by which the high efficiency and low cost NC machining for profiles of ceramic inserts can be realized by means of the polar coordinate interpolation function of FANUC OTC NC system and the belt grinding technology.
该方案利用FANUC OTC数控系统的极坐标插补功能和砂带磨削工艺 ,可实现陶瓷刀片型线的高效率、低成本数控加
3.
The main procedures of GPS+HIP processing technology to manufacture Al 2O 3 based ceramic inserts, including mixing powders, pressing green blanks, expelling glue, gas pressure sintering(GPS), hot isostatic pressing(HIP) treatment and grinding of inserts are introduced.
介绍了采用GPS +HIP生产工艺制造Al2 O3 基陶瓷刀片所涉及的混料、压制、排胶、气氛保护烧结(GPS)、热等静压 (HIP)处理、刀片刃磨等主要生产工
2) oxide tool
陶瓷刀片
1.
The numeric control machining manner of the grinder for grinding the periphery of oxide tool;
陶瓷刀片周边磨床的数控加工方法
2.
The numeric control system of grinder for grinding the periphery of oxide tool;
陶瓷刀片周边磨床数控加工系统
3.
The method of grinding oxide tool with two axles is presented and the mathematical models for some typical oxide tools are deduced.
提出了两轴联动磨削陶瓷刀片的方法,并给出了典型刀片数学模型的推导过程。
3) cermet miller
金属陶瓷铣刀片
4) metal ceramics blade
金属陶瓷刀片
5) nano-modified cermet inserts
纳米改性金属陶瓷刀片
6) Ti(C,N) cermet indexale insert
金属陶瓷可转位车刀片
补充资料:电解质陶瓷(见快离子导体陶瓷)
电解质陶瓷(见快离子导体陶瓷)
electrolyte ceramics
电解质陶瓷electrolyte陶瓷。Cera』n1CS即快离子导体
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条